System and method for a blended signal

ABSTRACT

The system includes a controller communicatively connected to a first and second device. The first and second devices have multiple wireless technologies capabilities, such as Bluetooth, Wi-Fi, and other known wireless technologies. The controller is configured to combine two signals generated from the wireless technologies into a single blended signal to transmit data from the first device to the second device or vice versa. The wireless technologies may be selected via a user interface which is communicatively connected to one of the first and second devices. Additionally, the wireless technologies may be selected using voice command or automatically selected by the type of data an operator designates. The controller is configured to combine two signals generated from the wireless technologies into a blended signal as well as allow two-way communication between the first and second device.

CROSS REFERENCE TO RELATED APPLICATION

This U.S. Patent Application is a Continuation Patent Application ofU.S. patent application Ser. No. 14/054,212, filed Oct. 15, 2013,entitled “System and Method for a Blended Signal,” now pending, theentire disclosure of the application being considered part of thedisclosure of this application and hereby incorporated by reference.

BACKGROUND OF THE INVENTION

Wireless communication and data transmission are well known. Typically,these communications and transmissions are transferred by using either aone-way system which allows data to transmit from one device to anotheror a two-way system which allows bi-directional transmission of databetween multiple devices. Accordingly, two-way communication ispreferred due to an ability to exchange information between multipledevices immediately. In the area of two-way wireless communication,systems and methods of communication advance as different technologiesand devices advance. This includes the ability to transfer datautilizing different wireless technologies such as Bluetooth or WirelessLocal Area Network (WLAN) as known as Wi-Fi.

Advances in technology have also caused components of wirelesscommunication devices to be smaller in size which has created a demandto utilize different wireless technologies within the same circuitry aswell as transmitting data over at the same time. Several solutions havebeen contemplated to address this demand, however, none allow for thetransmission of data using multiple wireless technologies with singlesignal.

SUMMARY

A system and method for wireless communication configured to combine andtransmit data utilizing two wireless technologies between a first andsecond device wherein the wireless technologies may be selected via auser interface is provided.

The system includes a controller communicatively connected to a firstand second device. The first and second devices are equipped with twowireless technologies such as Bluetooth, Wi-Fi, and other known wirelesstechnologies. The wireless technologies may be selected via a userinterface which is communicatively connected to one of the first andsecond devices. Additionally, the wireless technologies may be selectedusing voice command or automatically selected by the type of data anoperator designates. The controller is configured to combine two signalsgenerated from the wireless technologies into a single blended signal aswell as allow two-way communication between the first and second device.

The controller is configured to command one wireless technology tosubstitute the blended signal with another when the other wirelesstechnologies experience interference.

The aspect disclosed herein provides a method for combining andtransmitting two signals from two wireless technologies having a firstdevice, controller, second device, and user interface. The controller isconfigured to perform the operation of selecting two wirelesstechnologies to be used for data transmission, combining two signalsgenerated based on the selection of the two wireless technologies into asingle blended signal, and transmitting data between the first andsecond device via the blended signal.

The method may further comprise substituting the blended signal with thesignal generated by one of the two wireless technologies to preventtransmission failure when the other experiences interference.

The aspects disclosed herein provide a method for combining andtransmitting signals from two wireless technologies having a firstdevice, a controller, and a second device. The method comprisesdetecting interference interrupting operation of one of the two wirelesstechnologies, and substituting the other wireless technology for the oneexperiencing interference to maintain data transmission.

The aspects disclosed herein provide various advantages. For example, anoperator may operate multiple devices with various types of wirelesstechnology in a simplified manner by using one interface, instead ofswitching between multiple devices. Likewise, the system provides forhigher data transfer rates as well as greater capacity or Bandwidth forthe transmission of information, allowing the operator to transmit moredata faster based on the use of two or more wireless technologies.Similarly, the system and methods reduce interference in datatransmission caused by phenomenon or environmental conditions bysubstituting signals of one wireless technology for another when theother is interrupted by interference.

BRIEF DESCRIPTION OF THE DRAWINGS

The above advantages and other advantages of the present invention willbe readily appreciated, as the same becomes better understood byreference to the following detailed description when considered inconnection with the accompanying drawings wherein:

FIG. 1 illustrates an example of a first, second, and third device;

FIG. 2 illustrates an example of a system for wireless communicationconfigured to combine and transmit data employing two wirelesstechnologies;

FIG. 3 illustrates a block diagram depicting an example of multiplesignals transmitting data using two wireless technologies.

FIG. 4 illustrates a block diagram depicting another example of multiplesignals transmitting data using two wireless technologies.

FIG. 5 illustrates a block diagram depicting an example of multiplesignals transmitting data using two or more wireless technologies.

FIG. 6 illustrates a flowchart depicting an example of a method forpreventing interference in during data transmission using two wirelesstechnologies.

FIG. 7 illustrates a flowchart depicting an example of a method forcombining and transmitting two signals generated by two wirelesstechnologies;

FIG. 8 illustrates a flowchart depicting an example of a method forcombining and transmitting two signals generated by two wirelesstechnologies;

DETAILED DESCRIPTION OF THE ENABLING EMBODIMENTS

Detailed examples of the present invention are disclosed herein;however, it is to be understood that the disclosed examples are merelyexemplary and may be embodied in various and alternative forms. It isnot intended that these examples illustrate and describe all possibleforms of the invention. Rather, the words used in the specification arewords of description rather than limitation, and it is understood thatvarious changes may be made without departing from the spirit and scopeof the invention.

The aspects disclosed herein allow the operator to operate multipledevices such as a smart phone and vehicle module by using one interface,instead of switching between both devices. Additionally, allows for highdata transfer rates or greater Bandwidth since multiple wirelesstechnologies are working in concert to transmit the data and preventsinterference from interrupting data transmission.

FIG. 1 illustrates an example of a first, second, and third device 14,18, 26. The first, second, and third devices 14, 18, 26 may be wired orwireless devices and include, but are not limited to various vehiclemodules, cellular phones or smart phones, and smart devices such astablets, laptops, headphones, keyboards, printers, or other portabledevices operating in various platforms. Each device may come equippedwith a processing unit, integrated circuits having multiple sensors andantennas capable of supporting wireless communications or wiredcommunications, as well as a variety of application such as Wi-Fi,Bluetooth, GPS, video calls and the like. Typically, these devices areoperated through the use of a user interface 20 having selectable pushbuttons 28 or an LCD touch screen 30 as shown in FIG. 1. Operation ofuser interface 20 is not limited to selection via push buttons 28 ortouch screen 30 but may further include voice command and the like. Theuser interface 20 allows an operator to select different applicationsdepending on their actual need as well as control the device as will befurther described in FIGS. 2 and 6.

As those of ordinary skill in the art will understand various featuresof the present disclosure as illustrated and described with reference toany of the Figures may be combined with features illustrated in one ormore other Figures to produce examples of the present disclosure thatare not explicitly illustrated or described. The combinations offeatures illustrated provide representative examples for typicalapplications. However, various combinations and modifications of thefeatures consistent with the teachings of the present disclosure may bedesired for particular applications or implementations.

With respect to FIG. 2, the illustration depicts a system for wirelesscommunication configured to combine and transmit data 10 utilizing twowireless technologies 12. Data 10 comprises data such as a stream ofmusic, movies, vehicle information, or other types of information aswell as communications such as commands or other types of media. Thesystem includes a controller 16 communicatively connected to a first andsecond device 14, 18. Each device 14, 18 may be equipped with twowireless technologies 12 as well as a user interface 20. The twowireless technologies 12 may be selected via the user interface 20 orthrough voice command, or software. The controller 16 is configured tocombine two signals 22 generated by the wireless technologies 12 into ablended signal 24 and transmit the blended signal 24 between the firstand second device 14, 18. For example, an operator of this system mayrequire to stream internet radio available on their smart phone throughtheir vehicle. The software automatically, hardware signal detection, oroperator may select Bluetooth and Wi-Fi to stream the music or theoperator may select the Internet radio application on their smart phone,which may automatically designate Bluetooth and Wi-Fi to stream themusic from the smart phone to the vehicle module within the vehicle.

However, at times during data 10 transmission, interference may disruptone type of wireless technology 12, but not others due to the specificspecifications of that technology such as Bluetooth or Wi-Fi. Theinterference may be caused by phenomena or environmental conditions suchas weather or certain geographical locations having poor reception. Theaspects of this system provide that if one of the selected wirelesstechnologies 12 experiences interference during data 10 transmission,the controller 16 commands the other wireless technologies 12 to act asa substitute and generate the signal 22 to maintain transmission betweenthe first and second device 14, 18. For example, if the operator isusing Wi-Fi and Bluetooth to stream music from the smart phone to thevehicle module in their vehicle and the Wi-Fi signal drops due tointerference based on the vehicle's geographical location, thecontroller 16 instructs the Bluetooth signal to act as a substitute andmaintain data 10 transmission. In other words, the Bluetooth signal willcontinue to stream music from the smart phone to the vehicle modulewithout the assistance of Wi-Fi.

Additionally, the controller 16 allows for two way communication intransmitting and receiving data 10 via the blended signal 24 between thefirst and second device 14, 18 or vice versa.

Types of wireless technologies 12 may include Bluetooth and Wi-Fi aswell as other known wireless technologies. Other known wirelesstechnologies may encompass one type of wireless technology or mayencompass various types of present and future wireless technology. Otherknown wireless technologies includes, but is not limited to GlobalPositioning System (GPS), mobile virtual private network (mobile VPN),long term evolution (LTE), digital enhanced cordless telecommunications(DECT), enhanced Voice-Data Optimized (EVDO), general packet radioservice (GPRS), high speed packet access (HSPA), high capacity spatialdivision multiple access (iBurst), Li-Fi, multichannel multipointdistribution service (MMDS), worldwide interoperability for microwaveaccess (WiMax), Wireless USB and other technologies capable of wirelesscommunication. To designate the wireless technologies 12, an operatormay select the type of wireless technologies 12 by using the selectablepush buttons 28 or touch screen 30 of the user interface 20 to turn oneof the wireless technology 12 ON or OFF. Any of the followingcombinations will satisfy the selection of two wireless technologies 12:Bluetooth and Wi-Fi, Bluetooth and other known wireless technologies,and Wi-Fi and other known wireless technologies, for example.

In another example, an operator of the devices 14, 18 may designate thetype of wireless technologies 12 by selecting the type of data 10 viathe user interface 20. In other words, the type of data 10 designateddictates the selection of type of wireless technology 12. For instance,if the operator desired to stream video between the first and seconddevice 14, 18, and selects an application on the user interface 20 forvideo streaming, then the device may automatically chose Bluetooth andWi-Fi or Wi-Fi and other known wireless technologies to transmit thedata 10 between the first and second device 14, 18.

After the type of data 10 or wireless technologies 12 has been selected,signals 22 are generated representative of the data 10 and are parsedand encrypted for secure transmission. The controller 16 then combinesthe parsed and encrypted signals 22 into a signal blended signal 24. Thecontroller 16 transmits the blended signal 24 between the first andsecond device 14, 18. However, during transmission of the blended signal24 phenomena or environmental conditions surrounding the first andsecond device 14, 18 may cause interference. This interference maydisrupt the operation of one of the wireless technologies 12. To combatthe interruption, the controller 16 may instruct the other wirelesstechnologies 12 to act as a substitute and generate the signal 22 tomaintain transmission between the first and second device 14, 18. Inother words, if Bluetooth fails due to interference during data 10transmission, the controller 16 may instruct Wi-Fi or other knownwireless technologies to transmit the data 10 instead.

In addition to preventing interference, the use of two wirelesstechnologies 12 to create the blended signal 24 may generate a largerbandwidth for the transmission of data 10 between the first and seconddevice 14, 18. Put differently, the first and second device 14, 18 mayhave the ability to transmit larger quantities of data 10 across theblended signal 24 because the use of the two wireless technologies 12increases bandwidth capacity. Individually, each wireless technology 12has a certain bandwidth capacity based on the technologiesspecification. As a result, the respective bandwidths increase sincemultiple wireless technologies 12 are used together.

In another example, the third device 26 is communicatively connected tothe controller 16 having two wireless technologies 12. The third device26, as shown in FIG. 1 and described above, may communicate with eitherthe first or second device 14, 18, or both.

FIG. 3-5 illustrates a block diagram depicting examples of a systemusing multiple signals 22 and wireless technologies 12 to transmit data10. The system has a first device 14, a controller 16 (not shown), and asecond device 18. As described above, the controller 16 iscommunicatively connected to the first device 14 and the second device18. Each device 14, 18 may be equipped with two or more wirelesstechnologies 12 as well as a user interface 20 (not shown). The twowireless technologies 12 as well as the data 10 to be transmitted may beselected via the user interface 20 or through voice command, orautomatically through software. Once the wireless technologies 12 anddata 10 have been selected, the first device 14 may transmit the datausing two or more signals 22. For example, as shown in FIG. 3, data 10may be transmitted using Bluetooth and Wi-Fi simultaneously. In otherwords, the two or more wireless technologies 12 may coordinate with eachother and transmit data 10 using multiple signals 22.

Additionally, as illustrated in FIG. 5, before the data 10 istransmitted the controller 16 (not shown) is configured to parse andencrypt the data 10 to each specific wireless technology 12. After thedata 10 has been transmitted from the first device 14 to the seconddevice 18, the data 10 is compiled and decrypted.

FIG. 6 illustrates a flowchart depicting an example of a method forcombining and transmitting two signals 22 generated by two wirelesstechnologies 12 having a first device 14, controller 16, second device18, and user interface 20. The method includes the operation ofselecting 100 two wireless technologies 12 to be used for data 10transmission, combining 102 two signals 22 generated into a blendedsignal 24 based on the selection of wireless technologies 12, andtransmitting 104 data 10 between the first and second device 14, 18 viathe blended signal 24.

As described above, an operator may select the wireless technologies 12via selective push buttons 28 or touch screen 30 within the userinterface 20. When wireless technologies 12 are selected, such asBluetooth and Wi-Fi as shown in FIG. 6, the controller 16 will recognizetwo wireless technologies 12 as ON. Alternatively, the operator mayunselect or turn OFF any wireless technologies 12 previously usedthrough the user interface 20. For example, if the operator haspreviously utilized Bluetooth and other known wireless technologies 12for the use of streaming GPS directions between the first and seconddevice 14, 18 and the user desires to now stream video using Bluetoothand Wi-Fi, the operator may turn OFF other known wireless technologiesby de-selecting it via the user interface 20. The controller 16 isconfigured to recognize the signals 22 generated based on the selectedwireless technologies 12 and combines or multiplexes the signals 22 intoa single blended signal 24. This blended signal 24 allows the wirelesstechnologies 12 to work in concert with each other like a pipeline.

In another example as described with respect to FIG. 2, selection is notlimited to choosing wireless technologies 12 by push buttons 28 or touchscreen 30 within the user interface 20. As described in greater detailin FIG. 74, selection of the wireless technologies 12 may also occurinternally when an operator determines and designates on the userinterface 20 the type of data 10 to be transmitted between devices 14,18. In this example, the controller 16 is configured to determine thetype of wireless technologies 12 necessary for effective data 10transmissions. In determining this, the controller 16 may considervarious factors such as the data 10 to be transferred, size of the data10, rate of transfer required, and the like. The consideration of thesefactors may result in a higher data 10 transfer rates or largerbandwidth.

With respect to FIG. 7, a flowchart illustrates a method for combiningand transmitting two signals 22 generated by two wireless technologies12 having a user interface 20 and a controller 16 communicativelyconnect between the first and second device 14, 18 in greater detail.The method includes selecting two wireless technologies 12 to be usedfor data 10 transmissions 200. As discussed above in FIG. 6, theoperator may select the wireless technologies 12 via button press 28 ortouch screen 30 with the user interface 20. Additionally, the wirelesstechnology 12 may be designated on the user interface 20 as ON. Forexample, if an operator selects Bluetooth and Wi-Fi data transmission,then a portion of the screen within the user interface 20 reflect thatBluetooth and Wi-Fi are turned ON.

Once the wireless technologies 12 are recognized as selected, theoperator selects the type of data 10 for transmission 202. The selectionof data 10 may include the operator activating an application with thevehicle module or on their cellular or smart phone through the use ofpush buttons 28 or touch screen 30 within the user interface 20, orthrough voice command pre-programmed in the device 14, 18, and 26. Asshown in FIG. 7 such applications may include MP3 for streaming music,global positioning for driving directions, video streaming and any otherapplication which is pre-set on the device or downloadable to devices14, 18, and 26.

One skilled in the art understands that the illustration in FIG. 7 isone example of the method which is not limiting. However, one skilled inthe art also appreciates there are alternatives as described above inFIG. 6. In an alternative example, the operation of the selection ofdata 10 for transmission may precede the selection of the wirelesstechnology 12. In an example, after the data 10 is selected, theoperator or controller 16 may designate the types of wireless technology12 to utilize as previously described in regards to FIG. 6. Forinstance, if the operator desires to stream music between the first andsecond device 14, 18, the operator may activate that specificapplication, and then may turn on Bluetooth and Wi-Fi to complete thetransmission. Likewise, the controller 16 may automatically designateand activate Bluetooth and Wi-Fi to complete the transmission, when theoperator selects their desired application.

After the data 10 and wireless technologies 12 are selected, the data 10is parsed and encrypted for transmission 204. During this operation, thedata 10 is analyzed and encoded to the specific wireless technologies 12being utilizing. For instance, if the data 10 is streaming music usingBluetooth and Wi-Fi, the music will be analyzed and encoded to eachwireless technology 12 (i.e. analyzed and encoded for Bluetooth as wellas analyzed and encoded for Wi-Fi). Multiple signals 22 comprising theencoded data 10 are then combined or multiplexed through the controller16 into a blended single 24 for transmission 206.

The blended signal 24 is transmitted 208 and received 214 between thefirst and second device 14, 18. Transmitting and receiving the blendedsignal 24 may be accomplished through the use of a receiver or anantenna located within the first and second device 14, 18, as well asthrough wired technology such as a USB cable and the like. Thetransmission and receiving of the blended signal 24 allows for two-waycommunication. During transmission, the controller 16 is configured todetect if any of the wireless technologies 12 within either device 14and 18 is experiencing transmission failure due to interference causedby phenomena or environmental conditions 210. If the controller 16detects transmission interference within one of the wirelesstechnologies 12 such as Bluetooth, the controller 16 will instructanother wireless technology 12 such as Wi-Fi to complete the data 10transmission. In other words, the controller 16 will instruct the otherwireless technology 12 not experiencing failure due to interference tomaintain the transmission. If the controller 16 does not detect failureof the wireless technology 12 due to interference, as shown in FIG. 4the data is received via the blended signal 214.

Once the blended signal 24 is received by the device 14, the controller16 compiles and decrypts the blended signal 24 specifically to each ofthe wireless technologies 12 used during transmission 216. For instance,if the transmitted data 10 is parsed and encrypted using Wi-Fi and otherknown wireless technologies, the received data 10 will be compiled anddecrypted using Wi-Fi and other known wireless technologies.

FIG. 8 illustrates a flowchart depicting an example of a method forpreventing interference when combining and transmitting signals from twowireless technologies 12 having a controller 16 communicativelyconnected to a first and second device 14, 18. The method including theoperation of detecting interference interrupting the operation of one ofthe two wireless technologies 300, and substituting the other wirelesstechnology 12 for the one experiencing interference 302. In substitutingthe other wireless technology 12, data 10 transmission between the firstand second devices 14 and 18 is maintained.

The example disclosed above may transmit or receive the data 10 via thefirst or second devices 14, 18. Additionally, the examples disclosedabove may be implemented through the use of hardware, software, or acombination of both. Specifically, in regards to software, theapplication may be pre-set in the device or the application may bedownloadable to each device. Moreover, as technology further advancessoftware updates may be available to each device to integrate andincorporate new technology into the system.

While examples of the invention have been illustrated and described, itis not intended that these examples illustrate and describe all possibleforms of the invention. Rather, the words used in the specification arewords of description rather than limitation, and it is understood thatvarious changes may be made without departing from the spirit and scopeof the invention. Additionally, the features and various implementingembodiments may be combined to form further examples of the invention.

What is claimed:
 1. A system for wireless communication to combine andtransmit data employing two or more wireless technologies, comprising: acontroller communicatively connected a first device, and to receive fromat least one source, two or more wireless technologies, and wherein thesystem is configured to combine respective signals from the two or morewireless technologies into a single blended signal.
 2. The system ofclaim 1, wherein the first device is a vehicle module.
 3. The system ofclaim 1, wherein the two wireless technologies is Bluetooth, Wi-Fi, andother known wireless technologies.
 4. The system of claim 1, wherein thesingle blended signal may generate greater bandwidth for datatransmission between the first and a second device.
 5. The systemaccording to claim 4, wherein the second device is a mobile device, withboth the two wireless technologies.
 6. The system of claim 1, whereinthe controller is communicatively connected to a third device having twowireless technologies.
 7. The system of claim 1, wherein the thirddevice is a mobile device.
 8. A method for combining and transmittingtwo signals from two wireless technologies employing a first device, themethod comprising: selecting two or more wireless technologies for datatransmission from at least one device other than the first device, theat least one device being communicatively coupled to the first device;combining at least two signals generated from the two or more wirelesstechnologies into a single blended signal based on the selection of thetwo or more wireless technologies, and transmitting data from the firstdevice employing the single blended signal.
 9. The method of claim 8,the method further comprising substituting the single blended signalwith a signal generated from one of the two or more wirelesstechnologies to prevent system failure when the other wirelesstechnology experiences interference.
 10. The method of claim 8, themethod further comprising parsing and encrypting the data to betransmitted with respect to the two signals.
 11. The method of claim 8,further comprising receiving the data via the single blended signal. 12.The method of claim 8, further comprising compiling and decrypting thedata received via the single blended signal.
 13. The method of claim 8,wherein the two wireless technologies are Bluetooth and Wi-Fi.
 14. Themethod of claim 8, wherein the two wireless technologies are Bluetoothand another known wireless technologies.
 15. The method of claim 8,wherein the two wireless technologies are Wi-Fi and other known wirelesstechnologies.